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Published April 2017 | public
Journal Article Metadata-only

Assessment of predictive capabilities for aerodynamic heating in hypersonic flow

Knight, Doyle
Chazot, Olivier
Austin, Joanna ORCID icon
Badr, Mohammad Ali
Candler, Graham
Celik, Bayram
de Rosa, Donato
Donelli, Raffaele
Komives, Jeffrey
Lani, Andrea
Levin, Deborah
Nompelis, Ioannis
Panesi, Marco
Pezzella, Giuseppe
Reimann, Bodo
Tumuklu, Ozgur
Yuceil, Kemal

Abstract

The capability for CFD prediction of hypersonic shock wave laminar boundary layer interaction was assessed for a double wedge model at Mach 7.1 in air and nitrogen at 2.1 MJ/kg and 8 MJ/kg. Simulations were performed by seven research organizations encompassing both Navier-Stokes and Direct Simulation Monte Carlo (DSMC) methods as part of the NATO STO AVT Task Group 205 activity. Comparison of the CFD simulations with experimental heat transfer and schlieren visualization suggest the need for accurate modeling of the tunnel startup process in short-duration hypersonic test facilities, and the importance of fully 3-D simulations of nominally 2-D (i.e., non-axisymmmetric) experimental geometries.

Additional Information

© 2017 Elsevier Ltd. Received 3 February 2017, Accepted 6 February 2017, Available online 10 February 2017.

Additional details

Identifiers Dates
Created:
August 21, 2023
Modified:
October 25, 2023